Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests

Jessica F. Needham; Daniel J. Johnson; Kristina J. Anderson-Teixeira; Norman Bourg; Sarayudh Bunyavejchewin; Nathalie Butt; Min Cao; Dairon Cárdenas; Chia Hao Chang-Yang; Yu Yun Chen; George Chuyong; Handanakere S. Dattaraja; Stuart J. Davies; Alvaro Duque; Corneille E.N. Ewango; Edwino S. Fernando; Rosie Fisher; Christine D. Fletcher; Robin Foster; Zhanqing Hao; Terese Hart; Chang Fu Hsieh; Stephen P. Hubbell; Akira Itoh; David Kenfack; Charles D. Koven; Andrew J. Larson; James A. Lutz; William McShea; Jean Remy Makana; Yadvinder Malhi; Toby Marthews; Mohizah Bt. Mohamad; Michael D. Morecroft; Natalia Norden; Geoffrey Parker; Ankur Shringi; Raman Sukumar; Hebbalalu S. Suresh; I. Fang Sun; Sylvester Tan; Duncan W. Thomas; Jill Thompson; Maria Uriarte; Renato Valencia; Tze Leong Yao; Sandra L. Yap; Zuoqiang Yuan; Hu Yuehua; Jess K. Zimmerman; Daniel Zuleta; Sean M. McMahon

doi:10.1111/gcb.16100

Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests

Jessica F. Needham^*
, Daniel J. Johnson
, Kristina J. Anderson-Teixeira
, Norman Bourg
, Sarayudh Bunyavejchewin
, Nathalie Butt
, Min Cao
, Dairon Cárdenas
, Chia Hao Chang-Yang
, Yu Yun Chen
, George Chuyong
, Handanakere S. Dattaraja
, Stuart J. Davies
, Alvaro Duque
, Corneille E.N. Ewango
, Edwino S. Fernando
, Rosie Fisher
, Christine D. Fletcher
, Robin Foster
, Zhanqing Hao

Terese Hart, Chang Fu Hsieh, Stephen P. Hubbell, Akira Itoh, David Kenfack, Charles D. Koven, Andrew J. Larson, James A. Lutz, William McShea, Jean Remy Makana, Yadvinder Malhi, Toby Marthews, Mohizah Bt. Mohamad, Michael D. Morecroft, Natalia Norden, Geoffrey Parker, Ankur Shringi, Raman Sukumar, Hebbalalu S. Suresh, I. Fang Sun, Sylvester Tan, Duncan W. Thomas, Jill Thompson, Maria Uriarte, Renato Valencia, Tze Leong Yao, Sandra L. Yap, Zuoqiang Yuan, Hu Yuehua, Jess K. Zimmerman, Daniel Zuleta, Sean M. McMahon

^*Autor correspondiente de este trabajo

Facultad de Ciencias Exactas, Naturales y Ambientales

Producción científica: Revista › Artículo › revisión exhaustiva

20 Citas (Scopus)

Resumen

The growth and survival of individual trees determine the physical structure of a forest with important consequences for forest function. However, given the diversity of tree species and forest biomes, quantifying the multitude of demographic strategies within and across forests and the way that they translate into forest structure and function remains a significant challenge. Here, we quantify the demographic rates of 1961 tree species from temperate and tropical forests and evaluate how demographic diversity (DD) and demographic composition (DC) differ across forests, and how these differences in demography relate to species richness, aboveground biomass (AGB), and carbon residence time. We find wide variation in DD and DC across forest plots, patterns that are not explained by species richness or climate variables alone. There is no evidence that DD has an effect on either AGB or carbon residence time. Rather, the DC of forests, specifically the relative abundance of large statured species, predicted both biomass and carbon residence time. Our results demonstrate the distinct DCs of globally distributed forests, reflecting biogeography, recent history, and current plot conditions. Linking the DC of forests to resilience or vulnerability to climate change, will improve the precision and accuracy of predictions of future forest composition, structure, and function.

Idioma original	Inglés
Páginas (desde-hasta)	2895-2909
Número de páginas	15
Publicación	Global Change Biology
Volumen	28
N.º	9
DOI	https://doi.org/10.1111/gcb.16100
Estado	Publicada - may. 2022

Nota bibliográfica

Publisher Copyright:
© 2022 John Wiley & Sons Ltd.

Financiación

Financiadores	Número del financiador
U.S. Department of Energy
Office of Science
National Science Foundation NSF	DEB-1046113, 1046113, NSF 640261
Biological and Environmental Research	DE-AC02-05CH11231

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

Acceder al documento

10.1111/gcb.16100

Otros archivos y enlaces

Enlace a la publicación en Scopus

APOYO AL ESTUDIO DE LA DINÁMICA DEL BOSQUE DE YASUNÍ
HERNÁNDEZ RENTERÍA, C. B. (Investigador principal), Valencia Reyes, L. R. (Investigador principal), AYALA SUÁREZ, P. C. (Estudiante), MONTALVO YÁNEZ, S. G. (Estudiante), MONTALVO YÁNEZ, S. G. (Estudiante) & Quintana Medina, C. L. (Investigador principal)
2/01/02 → 31/12/21
Proyecto: Investigación e Innovación

Citar esto

Needham, J. F., Johnson, D. J., Anderson-Teixeira, K. J., Bourg, N., Bunyavejchewin, S., Butt, N., Cao, M., Cárdenas, D., Chang-Yang, C. H., Chen, Y. Y., Chuyong, G., Dattaraja, H. S., Davies, S. J., Duque, A., Ewango, C. E. N., Fernando, E. S., Fisher, R., Fletcher, C. D., Foster, R., ... McMahon, S. M. (2022). Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests. Global Change Biology, 28(9), 2895-2909. https://doi.org/10.1111/gcb.16100

@article{a8528bf83b974f40b49eb9cc409a9a5b,

title = "Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests",

abstract = "The growth and survival of individual trees determine the physical structure of a forest with important consequences for forest function. However, given the diversity of tree species and forest biomes, quantifying the multitude of demographic strategies within and across forests and the way that they translate into forest structure and function remains a significant challenge. Here, we quantify the demographic rates of 1961 tree species from temperate and tropical forests and evaluate how demographic diversity (DD) and demographic composition (DC) differ across forests, and how these differences in demography relate to species richness, aboveground biomass (AGB), and carbon residence time. We find wide variation in DD and DC across forest plots, patterns that are not explained by species richness or climate variables alone. There is no evidence that DD has an effect on either AGB or carbon residence time. Rather, the DC of forests, specifically the relative abundance of large statured species, predicted both biomass and carbon residence time. Our results demonstrate the distinct DCs of globally distributed forests, reflecting biogeography, recent history, and current plot conditions. Linking the DC of forests to resilience or vulnerability to climate change, will improve the precision and accuracy of predictions of future forest composition, structure, and function.",

keywords = "ForestGEO, aboveground biomass, carbon residence time, forest dynamics, size-dependent survival, species richness, tree demography",

author = "Needham, \{Jessica F.\} and Johnson, \{Daniel J.\} and Anderson-Teixeira, \{Kristina J.\} and Norman Bourg and Sarayudh Bunyavejchewin and Nathalie Butt and Min Cao and Dairon C{\'a}rdenas and Chang-Yang, \{Chia Hao\} and Chen, \{Yu Yun\} and George Chuyong and Dattaraja, \{Handanakere S.\} and Davies, \{Stuart J.\} and Alvaro Duque and Ewango, \{Corneille E.N.\} and Fernando, \{Edwino S.\} and Rosie Fisher and Fletcher, \{Christine D.\} and Robin Foster and Zhanqing Hao and Terese Hart and Hsieh, \{Chang Fu\} and Hubbell, \{Stephen P.\} and Akira Itoh and David Kenfack and Koven, \{Charles D.\} and Larson, \{Andrew J.\} and Lutz, \{James A.\} and William McShea and Makana, \{Jean Remy\} and Yadvinder Malhi and Toby Marthews and \{Bt. Mohamad\}, Mohizah and Morecroft, \{Michael D.\} and Natalia Norden and Geoffrey Parker and Ankur Shringi and Raman Sukumar and Suresh, \{Hebbalalu S.\} and Sun, \{I. Fang\} and Sylvester Tan and Thomas, \{Duncan W.\} and Jill Thompson and Maria Uriarte and Renato Valencia and Yao, \{Tze Leong\} and Yap, \{Sandra L.\} and Zuoqiang Yuan and Hu Yuehua and Zimmerman, \{Jess K.\} and Daniel Zuleta and McMahon, \{Sean M.\}",

note = "Publisher Copyright: {\textcopyright} 2022 John Wiley \& Sons Ltd.",

year = "2022",

month = may,

doi = "10.1111/gcb.16100",

language = "English",

volume = "28",

pages = "2895--2909",

journal = "Global Change Biology",

issn = "1354-1013",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "9",

}

Needham, JF, Johnson, DJ, Anderson-Teixeira, KJ, Bourg, N, Bunyavejchewin, S, Butt, N, Cao, M, Cárdenas, D, Chang-Yang, CH, Chen, YY, Chuyong, G, Dattaraja, HS, Davies, SJ, Duque, A, Ewango, CEN, Fernando, ES, Fisher, R, Fletcher, CD, Foster, R, Hao, Z, Hart, T, Hsieh, CF, Hubbell, SP, Itoh, A, Kenfack, D, Koven, CD, Larson, AJ, Lutz, JA, McShea, W, Makana, JR, Malhi, Y, Marthews, T, Bt. Mohamad, M, Morecroft, MD, Norden, N, Parker, G, Shringi, A, Sukumar, R, Suresh, HS, Sun, IF, Tan, S, Thomas, DW, Thompson, J, Uriarte, M, Valencia, R, Yao, TL, Yap, SL, Yuan, Z, Yuehua, H, Zimmerman, JK, Zuleta, D & McMahon, SM 2022, 'Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests', Global Change Biology, vol. 28, n.º 9, pp. 2895-2909. https://doi.org/10.1111/gcb.16100

TY - JOUR

T1 - Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests

AU - Needham, Jessica F.

AU - Johnson, Daniel J.

AU - Anderson-Teixeira, Kristina J.

AU - Bourg, Norman

AU - Bunyavejchewin, Sarayudh

AU - Butt, Nathalie

AU - Cao, Min

AU - Cárdenas, Dairon

AU - Chang-Yang, Chia Hao

AU - Chen, Yu Yun

AU - Chuyong, George

AU - Dattaraja, Handanakere S.

AU - Davies, Stuart J.

AU - Duque, Alvaro

AU - Ewango, Corneille E.N.

AU - Fernando, Edwino S.

AU - Fisher, Rosie

AU - Fletcher, Christine D.

AU - Foster, Robin

AU - Hao, Zhanqing

AU - Hart, Terese

AU - Hsieh, Chang Fu

AU - Hubbell, Stephen P.

AU - Itoh, Akira

AU - Kenfack, David

AU - Koven, Charles D.

AU - Larson, Andrew J.

AU - Lutz, James A.

AU - McShea, William

AU - Makana, Jean Remy

AU - Malhi, Yadvinder

AU - Marthews, Toby

AU - Bt. Mohamad, Mohizah

AU - Morecroft, Michael D.

AU - Norden, Natalia

AU - Parker, Geoffrey

AU - Shringi, Ankur

AU - Sukumar, Raman

AU - Suresh, Hebbalalu S.

AU - Sun, I. Fang

AU - Tan, Sylvester

AU - Thomas, Duncan W.

AU - Thompson, Jill

AU - Uriarte, Maria

AU - Valencia, Renato

AU - Yao, Tze Leong

AU - Yap, Sandra L.

AU - Yuan, Zuoqiang

AU - Yuehua, Hu

AU - Zimmerman, Jess K.

AU - Zuleta, Daniel

AU - McMahon, Sean M.

PY - 2022/5

Y1 - 2022/5

N2 - The growth and survival of individual trees determine the physical structure of a forest with important consequences for forest function. However, given the diversity of tree species and forest biomes, quantifying the multitude of demographic strategies within and across forests and the way that they translate into forest structure and function remains a significant challenge. Here, we quantify the demographic rates of 1961 tree species from temperate and tropical forests and evaluate how demographic diversity (DD) and demographic composition (DC) differ across forests, and how these differences in demography relate to species richness, aboveground biomass (AGB), and carbon residence time. We find wide variation in DD and DC across forest plots, patterns that are not explained by species richness or climate variables alone. There is no evidence that DD has an effect on either AGB or carbon residence time. Rather, the DC of forests, specifically the relative abundance of large statured species, predicted both biomass and carbon residence time. Our results demonstrate the distinct DCs of globally distributed forests, reflecting biogeography, recent history, and current plot conditions. Linking the DC of forests to resilience or vulnerability to climate change, will improve the precision and accuracy of predictions of future forest composition, structure, and function.

AB - The growth and survival of individual trees determine the physical structure of a forest with important consequences for forest function. However, given the diversity of tree species and forest biomes, quantifying the multitude of demographic strategies within and across forests and the way that they translate into forest structure and function remains a significant challenge. Here, we quantify the demographic rates of 1961 tree species from temperate and tropical forests and evaluate how demographic diversity (DD) and demographic composition (DC) differ across forests, and how these differences in demography relate to species richness, aboveground biomass (AGB), and carbon residence time. We find wide variation in DD and DC across forest plots, patterns that are not explained by species richness or climate variables alone. There is no evidence that DD has an effect on either AGB or carbon residence time. Rather, the DC of forests, specifically the relative abundance of large statured species, predicted both biomass and carbon residence time. Our results demonstrate the distinct DCs of globally distributed forests, reflecting biogeography, recent history, and current plot conditions. Linking the DC of forests to resilience or vulnerability to climate change, will improve the precision and accuracy of predictions of future forest composition, structure, and function.

KW - ForestGEO

KW - aboveground biomass

KW - carbon residence time

KW - forest dynamics

KW - size-dependent survival

KW - species richness

KW - tree demography

UR - https://www.scopus.com/pages/publications/85124821840

U2 - 10.1111/gcb.16100

DO - 10.1111/gcb.16100

M3 - Article

C2 - 35080088

AN - SCOPUS:85124821840

SN - 1354-1013

VL - 28

SP - 2895

EP - 2909

JO - Global Change Biology

JF - Global Change Biology

IS - 9

ER -

Demographic composition, not demographic diversity, predicts biomass and turnover across temperate and tropical forests

Resumen

Nota bibliográfica

Financiación

ODS de las Naciones Unidas

Acceder al documento

Otros archivos y enlaces

Huella

Proyectos

APOYO AL ESTUDIO DE LA DINÁMICA DEL BOSQUE DE YASUNÍ

Citar esto